التفاصيل البيبلوغرافية
| العنوان: |
Differential quantification of alternative splicing events on spliced pangenome graphs. |
| المؤلفون: |
Ciccolella, Simone1 (AUTHOR), Cozzi, Davide1 (AUTHOR), Della Vedova, Gianluca1 (AUTHOR), Kuria, Stephen Njuguna2 (AUTHOR), Bonizzoni, Paola1 (AUTHOR), Denti, Luca1,3 (AUTHOR) luca.denti@unimib.it |
| المصدر: |
PLoS Computational Biology. 12/9/2024, Vol. 20 Issue 12, p1-19. 19p. |
| مصطلحات موضوعية: |
*ALTERNATIVE RNA splicing, *GENETIC variation, *PAN-genome, *GENETIC code, *GENOMES |
| مستخلص: |
Pangenomes are becoming a powerful framework to perform many bioinformatics analyses taking into account the genetic variability of a population, thus reducing the bias introduced by a single reference genome. With the wider diffusion of pangenomes, integrating genetic variability with transcriptome diversity is becoming a natural extension that demands specific methods for its exploration. In this work, we extend the notion of spliced pangenomes to that of annotated spliced pangenomes; this allows us to introduce a formal definition of Alternative Splicing (AS) events on a graph structure. To investigate the usage of graph pangenomes for the quantification of AS events across conditions, we developed pantas, the first pangenomic method for the detection and differential analysis of AS events from short RNA-Seq reads. A comparison with state-of-the-art linear reference-based approaches proves that pantas achieves competitive accuracy, making spliced pangenomes effective for conducting AS events quantification and opening future directions for the analysis of population-based transcriptomes. Author summary: The ever increasing availability of complete genomes is advancing our comprehension of many biological mechanisms and is enhancing the knowledge we can extract from sequencing data. Pangenome graphs are a convenient way to represent multiple genomes and the genetic variability within a population. Integrating genetic variability with transcriptome diversity can improve our understanding of alternative splicing, a regulation mechanism which allows a single gene to code for multiple proteins. However, many unanswered questions are limiting our comprehension of the relationship between genetic and trancriptomic variations. With this work, we start to fill this gap by introducing pantas, the first approach based on pangenome graphs for the detection and differential quantification of alternative splicing events. A comparison with state-of-the-art approaches based on linear genome prove that pangenome graphs can be effectively used to perform such an analysis. By integrating genetic and transcriptome variability in a single structure, pantas can pave the way to next generation bioinformatic approaches for the accurate analysis of the relations between genetic variations and alternative splicing. [ABSTRACT FROM AUTHOR] |
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